mirror of
https://github.com/ceph/ceph-csi.git
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295 lines
11 KiB
Bash
295 lines
11 KiB
Bash
#!/usr/bin/env bash
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# Copyright 2018 The Kubernetes Authors.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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# Script that creates a Kubemark cluster for IBM cloud.
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KUBECTL="${KUBE_ROOT}/cluster/kubectl.sh"
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KUBEMARK_DIRECTORY="${KUBE_ROOT}/test/kubemark"
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RESOURCE_DIRECTORY="${KUBEMARK_DIRECTORY}/resources"
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# Generate secret and configMap for the hollow-node pods to work, prepare
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# manifests of the hollow-node and heapster replication controllers from
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# templates, and finally create these resources through kubectl.
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function create-kube-hollow-node-resources {
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# Create kubeconfig for Kubelet.
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KUBELET_KUBECONFIG_CONTENTS=$(echo "apiVersion: v1
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kind: Config
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users:
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- name: kubelet
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user:
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client-certificate-data: "${KUBELET_CERT_BASE64}"
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client-key-data: "${KUBELET_KEY_BASE64}"
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clusters:
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- name: kubemark
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cluster:
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certificate-authority-data: "${CA_CERT_BASE64}"
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server: https://${MASTER_IP}
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contexts:
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- context:
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cluster: kubemark
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user: kubelet
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name: kubemark-context
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current-context: kubemark-context")
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# Create kubeconfig for Kubeproxy.
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KUBEPROXY_KUBECONFIG_CONTENTS=$(echo "apiVersion: v1
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kind: Config
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users:
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- name: kube-proxy
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user:
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client-certificate-data: "${KUBELET_CERT_BASE64}"
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client-key-data: "${KUBELET_KEY_BASE64}"
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clusters:
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- name: kubemark
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cluster:
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insecure-skip-tls-verify: true
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server: https://${MASTER_IP}
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contexts:
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- context:
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cluster: kubemark
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user: kube-proxy
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name: kubemark-context
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current-context: kubemark-context")
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# Create kubeconfig for Heapster.
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HEAPSTER_KUBECONFIG_CONTENTS=$(echo "apiVersion: v1
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kind: Config
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users:
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- name: heapster
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user:
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client-certificate-data: "${KUBELET_CERT_BASE64}"
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client-key-data: "${KUBELET_KEY_BASE64}"
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clusters:
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- name: kubemark
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cluster:
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insecure-skip-tls-verify: true
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server: https://${MASTER_IP}
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contexts:
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- context:
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cluster: kubemark
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user: heapster
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name: kubemark-context
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current-context: kubemark-context")
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# Create kubeconfig for Cluster Autoscaler.
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CLUSTER_AUTOSCALER_KUBECONFIG_CONTENTS=$(echo "apiVersion: v1
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kind: Config
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users:
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- name: cluster-autoscaler
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user:
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client-certificate-data: "${KUBELET_CERT_BASE64}"
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client-key-data: "${KUBELET_KEY_BASE64}"
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clusters:
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- name: kubemark
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cluster:
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insecure-skip-tls-verify: true
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server: https://${MASTER_IP}
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contexts:
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- context:
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cluster: kubemark
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user: cluster-autoscaler
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name: kubemark-context
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current-context: kubemark-context")
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# Create kubeconfig for NodeProblemDetector.
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NPD_KUBECONFIG_CONTENTS=$(echo "apiVersion: v1
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kind: Config
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users:
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- name: node-problem-detector
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user:
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client-certificate-data: "${KUBELET_CERT_BASE64}"
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client-key-data: "${KUBELET_KEY_BASE64}"
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clusters:
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- name: kubemark
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cluster:
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insecure-skip-tls-verify: true
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server: https://${MASTER_IP}
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contexts:
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- context:
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cluster: kubemark
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user: node-problem-detector
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name: kubemark-context
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current-context: kubemark-context")
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# Create kubeconfig for Kube DNS.
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KUBE_DNS_KUBECONFIG_CONTENTS=$(echo "apiVersion: v1
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kind: Config
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users:
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- name: kube-dns
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user:
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client-certificate-data: "${KUBELET_CERT_BASE64}"
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client-key-data: "${KUBELET_KEY_BASE64}"
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clusters:
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- name: kubemark
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cluster:
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insecure-skip-tls-verify: true
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server: https://${MASTER_IP}
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contexts:
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- context:
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cluster: kubemark
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user: kube-dns
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name: kubemark-context
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current-context: kubemark-context")
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# Create kubemark namespace.
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spawn-config
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if kubectl get ns | grep -Fq "kubemark"; then
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kubectl delete ns kubemark
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while kubectl get ns | grep -Fq "kubemark"
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do
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sleep 10
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done
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fi
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"${KUBECTL}" create -f "${RESOURCE_DIRECTORY}/kubemark-ns.json"
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# Create configmap for configuring hollow- kubelet, proxy and npd.
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"${KUBECTL}" create configmap "node-configmap" --namespace="kubemark" \
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--from-literal=content.type="${TEST_CLUSTER_API_CONTENT_TYPE}" \
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--from-file=kernel.monitor="${RESOURCE_DIRECTORY}/kernel-monitor.json"
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# Create secret for passing kubeconfigs to kubelet, kubeproxy and npd.
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"${KUBECTL}" create secret generic "kubeconfig" --type=Opaque --namespace="kubemark" \
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--from-literal=kubelet.kubeconfig="${KUBELET_KUBECONFIG_CONTENTS}" \
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--from-literal=kubeproxy.kubeconfig="${KUBEPROXY_KUBECONFIG_CONTENTS}" \
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--from-literal=heapster.kubeconfig="${HEAPSTER_KUBECONFIG_CONTENTS}" \
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--from-literal=cluster_autoscaler.kubeconfig="${CLUSTER_AUTOSCALER_KUBECONFIG_CONTENTS}" \
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--from-literal=npd.kubeconfig="${NPD_KUBECONFIG_CONTENTS}" \
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--from-literal=dns.kubeconfig="${KUBE_DNS_KUBECONFIG_CONTENTS}"
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# Create addon pods.
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# Heapster.
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mkdir -p "${RESOURCE_DIRECTORY}/addons"
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sed "s/{{MASTER_IP}}/${MASTER_IP}/g" "${RESOURCE_DIRECTORY}/heapster_template.json" > "${RESOURCE_DIRECTORY}/addons/heapster.json"
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metrics_mem_per_node=4
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metrics_mem=$((200 + ${metrics_mem_per_node}*${NUM_NODES}))
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sed -i'' -e "s/{{METRICS_MEM}}/${metrics_mem}/g" "${RESOURCE_DIRECTORY}/addons/heapster.json"
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metrics_cpu_per_node_numerator=${NUM_NODES}
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metrics_cpu_per_node_denominator=2
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metrics_cpu=$((80 + metrics_cpu_per_node_numerator / metrics_cpu_per_node_denominator))
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sed -i'' -e "s/{{METRICS_CPU}}/${metrics_cpu}/g" "${RESOURCE_DIRECTORY}/addons/heapster.json"
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eventer_mem_per_node=500
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eventer_mem=$((200 * 1024 + ${eventer_mem_per_node}*${NUM_NODES}))
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sed -i'' -e "s/{{EVENTER_MEM}}/${eventer_mem}/g" "${RESOURCE_DIRECTORY}/addons/heapster.json"
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# Cluster Autoscaler.
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if [[ "${ENABLE_KUBEMARK_CLUSTER_AUTOSCALER:-}" == "true" ]]; then
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echo "Setting up Cluster Autoscaler"
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KUBEMARK_AUTOSCALER_MIG_NAME="${KUBEMARK_AUTOSCALER_MIG_NAME:-${NODE_INSTANCE_PREFIX}-group}"
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KUBEMARK_AUTOSCALER_MIN_NODES="${KUBEMARK_AUTOSCALER_MIN_NODES:-0}"
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KUBEMARK_AUTOSCALER_MAX_NODES="${KUBEMARK_AUTOSCALER_MAX_NODES:-${DESIRED_NODES}}"
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NUM_NODES=${KUBEMARK_AUTOSCALER_MAX_NODES}
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echo "Setting maximum cluster size to ${NUM_NODES}."
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KUBEMARK_MIG_CONFIG="autoscaling.k8s.io/nodegroup: ${KUBEMARK_AUTOSCALER_MIG_NAME}"
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sed "s/{{master_ip}}/${MASTER_IP}/g" "${RESOURCE_DIRECTORY}/cluster-autoscaler_template.json" > "${RESOURCE_DIRECTORY}/addons/cluster-autoscaler.json"
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sed -i'' -e "s/{{kubemark_autoscaler_mig_name}}/${KUBEMARK_AUTOSCALER_MIG_NAME}/g" "${RESOURCE_DIRECTORY}/addons/cluster-autoscaler.json"
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sed -i'' -e "s/{{kubemark_autoscaler_min_nodes}}/${KUBEMARK_AUTOSCALER_MIN_NODES}/g" "${RESOURCE_DIRECTORY}/addons/cluster-autoscaler.json"
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sed -i'' -e "s/{{kubemark_autoscaler_max_nodes}}/${KUBEMARK_AUTOSCALER_MAX_NODES}/g" "${RESOURCE_DIRECTORY}/addons/cluster-autoscaler.json"
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fi
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# Kube DNS.
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if [[ "${ENABLE_KUBEMARK_KUBE_DNS:-}" == "true" ]]; then
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echo "Setting up kube-dns"
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sed "s/{{dns_domain}}/${KUBE_DNS_DOMAIN}/g" "${RESOURCE_DIRECTORY}/kube_dns_template.yaml" > "${RESOURCE_DIRECTORY}/addons/kube_dns.yaml"
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fi
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"${KUBECTL}" create -f "${RESOURCE_DIRECTORY}/addons" --namespace="kubemark"
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set-registry-secrets
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# Create the replication controller for hollow-nodes.
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# We allow to override the NUM_REPLICAS when running Cluster Autoscaler.
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NUM_REPLICAS=${NUM_REPLICAS:-${NUM_NODES}}
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sed "s/{{numreplicas}}/${NUM_REPLICAS}/g" "${RESOURCE_DIRECTORY}/hollow-node_template.yaml" > "${RESOURCE_DIRECTORY}/hollow-node.yaml"
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proxy_cpu=20
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if [ "${NUM_NODES}" -gt 1000 ]; then
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proxy_cpu=50
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fi
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proxy_mem_per_node=50
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proxy_mem=$((100 * 1024 + ${proxy_mem_per_node}*${NUM_NODES}))
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sed -i'' -e "s/{{HOLLOW_PROXY_CPU}}/${proxy_cpu}/g" "${RESOURCE_DIRECTORY}/hollow-node.yaml"
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sed -i'' -e "s/{{HOLLOW_PROXY_MEM}}/${proxy_mem}/g" "${RESOURCE_DIRECTORY}/hollow-node.yaml"
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sed -i'' -e "s'{{kubemark_image_registry}}'${KUBEMARK_IMAGE_REGISTRY}${KUBE_NAMESPACE}'g" "${RESOURCE_DIRECTORY}/hollow-node.yaml"
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sed -i'' -e "s/{{kubemark_image_tag}}/${KUBEMARK_IMAGE_TAG}/g" "${RESOURCE_DIRECTORY}/hollow-node.yaml"
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sed -i'' -e "s/{{master_ip}}/${MASTER_IP}/g" "${RESOURCE_DIRECTORY}/hollow-node.yaml"
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sed -i'' -e "s/{{kubelet_verbosity_level}}/${KUBELET_TEST_LOG_LEVEL}/g" "${RESOURCE_DIRECTORY}/hollow-node.yaml"
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sed -i'' -e "s/{{kubeproxy_verbosity_level}}/${KUBEPROXY_TEST_LOG_LEVEL}/g" "${RESOURCE_DIRECTORY}/hollow-node.yaml"
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sed -i'' -e "s/{{use_real_proxier}}/${USE_REAL_PROXIER}/g" "${RESOURCE_DIRECTORY}/hollow-node.yaml"
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sed -i'' -e "s'{{kubemark_mig_config}}'${KUBEMARK_MIG_CONFIG:-}'g" "${RESOURCE_DIRECTORY}/hollow-node.yaml"
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"${KUBECTL}" create -f "${RESOURCE_DIRECTORY}/hollow-node.yaml" --namespace="kubemark"
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echo "Created secrets, configMaps, replication-controllers required for hollow-nodes."
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}
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# Wait until all hollow-nodes are running or there is a timeout.
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function wait-for-hollow-nodes-to-run-or-timeout {
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echo -n "Waiting for all hollow-nodes to become Running"
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start=$(date +%s)
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nodes=$("${KUBECTL}" --kubeconfig="${KUBECONFIG}" get node 2> /dev/null) || true
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ready=$(($(echo "${nodes}" | grep -v "NotReady" | wc -l) - 1))
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until [[ "${ready}" -ge "${NUM_REPLICAS}" ]]; do
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echo -n "."
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sleep 1
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now=$(date +%s)
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# Fail it if it already took more than 30 minutes.
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if [ $((now - start)) -gt 1800 ]; then
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echo ""
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echo -e "${color_red} Timeout waiting for all hollow-nodes to become Running. ${color_norm}"
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# Try listing nodes again - if it fails it means that API server is not responding
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if "${KUBECTL}" --kubeconfig="${KUBECONFIG}" get node &> /dev/null; then
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echo "Found only ${ready} ready hollow-nodes while waiting for ${NUM_NODES}."
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else
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echo "Got error while trying to list hollow-nodes. Probably API server is down."
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fi
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spawn-config
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pods=$("${KUBECTL}" get pods -l name=hollow-node --namespace=kubemark) || true
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running=$(($(echo "${pods}" | grep "Running" | wc -l)))
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echo "${running} hollow-nodes are reported as 'Running'"
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not_running=$(($(echo "${pods}" | grep -v "Running" | wc -l) - 1))
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echo "${not_running} hollow-nodes are reported as NOT 'Running'"
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echo $(echo "${pods}" | grep -v "Running")
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exit 1
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fi
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nodes=$("${KUBECTL}" --kubeconfig="${KUBECONFIG}" get node 2> /dev/null) || true
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ready=$(($(echo "${nodes}" | grep -v "NotReady" | wc -l) - 1))
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done
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echo -e "${color_green} Done!${color_norm}"
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}
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############################### Main Function ########################################
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# In order for the cluster autoscalar to function, the template file must be changed so that the ":443"
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# is removed. This is because the port is already given with the MASTER_IP.
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# Create clusters and populate with hollow nodes
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complete-login
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build-kubemark-image
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choose-clusters
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generate-values
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set-hollow-master
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echo "Creating kube hollow node resources"
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create-kube-hollow-node-resources
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master-config
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echo -e "${color_blue}EXECUTION COMPLETE${color_norm}"
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# Check status of Kubemark
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echo -e "${color_yellow}CHECKING STATUS${color_norm}"
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wait-for-hollow-nodes-to-run-or-timeout
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# Celebrate
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echo ""
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echo -e "${color_blue}SUCCESS${color_norm}"
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clean-repo
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exit 0
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